Wei Ming Yek scite author profile

Wei Ming Yek

3Publications

11Citation Statements Received

22Citation Statements Given

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Affiliations

Singapore Institute of Manufacturing Technology, RMIT University, MIT University

Publications

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Enhanced mixing of Newtonian fluids in a stirred vessel using impeller speed modulation

et al. 2009

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This paper reports on an experimental study of mixing intensification using speed modulation of a six-blade Rushton turbine in a stirred vessel. Mixing times were measured using a non-intrusive technique based on direct visualisation of an acid-base reaction in a Newtonian fluid. The impeller speed modulation was achieved by using two waveforms: a square wave and a sine wave. The amplitude was fixed between a maximum Reynolds number of Re max = 60 and minimum Reynolds numbers of Re min = 40 or 30. The wave periods were varied (10, 20, or 40 s) in order to compare the effects of unsteady stirring on mixing performance. It was observed that a square wave protocol with the shortest wave period and the larger amplitude resulted in the shortest time to destroy the observed isolated mixing regions (IMRs), which are known to exist in stirred vessels operating at low Reynolds number. However, the sine wave protocol led to a slow diffusive mechanism in which IMR structures reached an asymptotic volume and remained visible even after several hours. The results are presented and discussed using digital photographs taken at different time intervals during experimentation.Ce papier présente uneétude experimentale concernant l'intensification du mélange en modulant la vitesse d'une turbine de type Rushton a six palettes dans une cuve agitée. Les temps de mélanges sont mesurés avec une technique non-intrusive basée sur la visualisation directe d'une réaction acide-base au sein d'un fluide Newtonien. La modulation de la vitesse de la turbine aété realisée en utilisant deux formes d'ondes: une onde carrée et une onde sinusoidale. L'amplitude de chaque onde aété fixée entre un nombre de Reynolds maximal de Re max = 60 et un nombre de Reynolds minimal de Re min = 40 ou 30. Les périodes des ondesétaient variées (10, 20 ou 40 s) dans le but de comparer les effets du mélange non-stationnaire sur les performances du systeme. Il aété observé que le protocole suivant l'onde carrée avec la periode la plus courte et l'amplitude la plus large produisait le temps le plus court necessaire pour la destruction des zones de mélanges isolées (IMRs), dont l'éxistense est connue dans les cuves a mélange opérant aux nombres de Reynolds bas. Toutefois, le protocol suivant une onde sinusoidale a conduit a un mechanisme de diffusion lent dans lequel les IMRs atteignies un volume symptotique et sont restées visibles après plusieurs heures. Les résultats sont présentés and discutés en utilisant des photographes digitales prisesà des intervales de temps differents durant leséxperiences.

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Microstructure and impact strength of polyamide 6 composites

Yek

et al. 2015

Materials Today Communications

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Intensification of Flow Characteristics in a Laminar Flow Stirred Tank Using Modified Impeller Designs

Yek

Noui‐Mehidi

Parthasarathy

2010

J. Chem. Eng. Japan

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Wei Ming Yek

Enhanced mixing of Newtonian fluids in a stirred vessel using impeller speed modulation

Microstructure and impact strength of polyamide 6 composites

Intensification of Flow Characteristics in a Laminar Flow Stirred Tank Using Modified Impeller Designs

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